CN209310585U - For thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator - Google Patents
For thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator Download PDFInfo
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- CN209310585U CN209310585U CN201821599392.8U CN201821599392U CN209310585U CN 209310585 U CN209310585 U CN 209310585U CN 201821599392 U CN201821599392 U CN 201821599392U CN 209310585 U CN209310585 U CN 209310585U
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- evaporator
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- condensation segment
- drying machine
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Abstract
The utility model discloses a kind of for thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator, including evaporator section, condensation segment, it is connected between evaporator section and condensation segment by adiabatic section, the section of jurisdiction of condensation segment is vertically arranged, evaporator is provided between evaporator section and condensation segment, the section of jurisdiction of the parallel setting in the section of jurisdiction of evaporator and the section of jurisdiction of condensation segment, evaporator section is horizontally disposed or is obliquely installed, and is in the angle of 15-90 degree between evaporator section and condensation segment.The utility model heat conduction efficiency is high, low energy consumption, compact-sized, and degree of integration is high, can substantially reduce the volume of heat exchanger, and then is conducive to reduce the overall volume of dryer, is particularly suitable for integrated thermal pump dehumidification drying machine.
Description
Technical field
The utility model relates to heat exchange of heat pipe technical fields, and in particular to one kind is for thermal pump dehumidification drying machine and integrates
The gravity-type heat pipe heat exchanger of evaporator.
Background technique
Heat pipe is a kind of heat-transferring assembly with high thermal conductivity, and heat pipe is a kind of heat transfer member with high thermal conductivity
Part, it transmits heat by the evaporation Yu condensation of the working medium in Totally enclosed vacuum shell, has high thermal conductivity, good
Isothermal, cold and hot two sides heat transfer area can arbitrarily change, can the series of advantages such as remotely transferring, temperature controllable.At present
It is widely used in the industries such as metallurgy, chemical industry, oil refining, boiler, ceramics, traffic, light textile, machinery, as Waste Heat Recovery and work
The energy-saving equipment of heat energy utilization during skill, achieves significant economic benefit.
Summary of the invention
The technical problem to be solved by the present invention is to provide a kind of for thermal pump dehumidification drying machine and integrated evaporator
Gravity-type heat pipe heat exchanger makes condensation segment return liquid by the effect of gravity, can be improved heat conduction efficiency, reduces energy consumption.
In order to solve the above technical problems, the utility model adopts the following technical solution:
Design it is a kind of for thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator, including evaporator section,
Condensation segment is connected between the evaporator section and condensation segment by adiabatic section, and the section of jurisdiction of the condensation segment is vertically arranged, in the steaming
Evaporator, the setting parallel with the section of jurisdiction of the condensation segment of the section of jurisdiction of the evaporator, institute are provided between hair section and condensation segment
The section of jurisdiction for stating evaporator section is horizontally disposed with or is obliquely installed, and is in the angle of 15-90 degree between the evaporator section and condensation segment.
In the above-mentioned technical solutions, which is also integrated in thermal pump dehumidification drying machine
Evaporator under the drive of circulating fan, dries indoor damp-heat air and passes through return air inlet in thermal pump dehumidification drying machine work
The heat exchange area for entering heat exchange dryer first passes through evaporator section and is tentatively cooled down, and carries out using evaporator into one
Step cooling, hydrogenesis in damp-heat air are discharged to outside dryer, realize dehumidifying, the air after dehumidifying using
Condensation segment is tentatively heated, then the condenser by being arranged in dryer further heats, and then passes through the air outlet of dryer
It into drying room, so recycles, realizes the drying to material in drying room.
Preferably, the evaporator section is correspondingly arranged at the damp-heat air air inlet of thermal pump dehumidification drying machine.
Preferably, the direction of the damp-heat air air inlet is straight up.
Preferably, the direction of the damp-heat air air inlet and plane where the evaporator section are perpendicular.
Preferably, the evaporator section and condensation segment are copper pipe fin type heat exchanger or micro-channel parallel flow heat exchanger.
Preferably, the evaporator is copper pipe fin type heat exchanger or micro-channel parallel flow heat exchanger.
The utility model has the beneficial effects that:
The section of jurisdiction of the condensation segment of the utility model heat exchange of heat pipe is vertically arranged, and can make condensation segment when returning liquid by gravity
Effect, be conducive to energy saving;Evaporator is set between evaporator section and condensation segment, so that damp-heat air first passes through evaporator section
Preliminary cooling further cools down using evaporator, realizes the dehumidifying to damp-heat air;Air after dehumidifying is using condensation segment
Preliminary heating, then further heat exchange is carried out with the condenser in dryer, heat conduction efficiency can be effectively improved, realizes drying
Interior circulating-heating in machine makes dryer be not easily susceptible to ambient temperature influence, and drying efficiency is higher, drying effect is more preferable.
The utility model heat exchange of heat pipe is integrated with evaporator, compact-sized, and degree of integration is high, can substantially reduce heat exchange
The volume of device can be integrally placed in thermal pump dehumidification drying machine, and Energy Efficiency Ratio height, occupied space reduce 2/ than Conventional plate-type heat exchanger
3 or more, it is particularly suitable for integrated thermal pump dehumidification drying machine.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of embodiment of the utility model heat exchange of heat pipe;
Fig. 2 is the schematic diagram of heat exchange of heat pipe and damp-heat air heat exchange in Fig. 1;
Fig. 3 is the structural schematic diagram of the utility model heat exchange of heat pipe another embodiment;
Fig. 4 is one of the schematic diagram of heat exchange of heat pipe and damp-heat air heat exchange in Fig. 3;
Fig. 5 is the two of the schematic diagram that heat exchange of heat pipe and damp-heat air exchange heat in Fig. 3;
Figure label: 1 is evaporator section, and 2 be condensation segment, and 3 be evaporator.
Specific embodiment
Illustrate specific embodiment of the present utility model with reference to the accompanying drawings and examples, but the following example only uses
It is described in detail the embodiments of the present invention, does not limit the scope of the utility model in any way.
Embodiment 1: it is a kind of for thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator, referring to Fig. 1,
Fig. 2, including evaporator section 1, condensation segment 2, are connected between evaporator section 1 and condensation segment 2 by adiabatic section, the section of jurisdiction of condensation segment 2 is vertical
Setting, is provided with evaporator 3, the section of jurisdiction of evaporator 3 is parallel with the section of jurisdiction of condensation segment 2 to be set between evaporator section 1 and condensation segment 2
It sets, the section of jurisdiction of evaporator section 1 is horizontally disposed, and is in 90 degree of angle between evaporator section 1 and condensation segment 2.
Evaporator section 1 is correspondingly arranged at the damp-heat air air inlet of thermal pump dehumidification drying machine;The side of damp-heat air air inlet
To for straight up.Evaporator section 1 and condensation segment 2 are copper pipe fin type heat exchanger or micro-channel parallel flow heat exchanger.Evaporator 3 is
Copper pipe fin type heat exchanger or micro-channel parallel flow heat exchanger.
Embodiment 2: it is a kind of for thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator, referring to Fig. 3-
Fig. 5, difference from example 1 is that, evaporator section 1 is obliquely installed, and is in 60 degree of folder between evaporator section 1 and condensation segment 2
Angle, the direction of damp-heat air air inlet are straight up (Fig. 4);Or where the direction of damp-heat air air inlet and evaporator section 1
Plane is perpendicular (Fig. 5).
Related equipment component is conventional equipment element unless otherwise instructed in the embodiment above.
The specific working mode of the utility model heat exchange of heat pipe are as follows: the heat exchange of heat pipe is arranged in thermal pump dehumidification drying
In the heat exchange area of machine, evaporator section corresponds to the return air inlet of drying room in dryer, under the action of circulating fan, dries indoor
Damp-heat air enters from return air inlet, and the evaporator section for first passing through heat exchange of heat pipe is tentatively cooled down, further by evaporator
Cooling makes wherein hydrogenesis discharge, realizes the dehumidifying of damp-heat air, the dry air after dehumidifying is added using condensation segment
Heat is further heated using the condenser being arranged in dryer, then returns to drying by the air outlet of drying room
Interior so recycles, and realizes the drying to material in drying room.The utility model heat exchange of heat pipe is integrated with evaporator, can be whole
Body is placed in thermal pump dehumidification drying machine, and Energy Efficiency Ratio height, occupied space reduce 2/3 or more than Conventional plate-type heat exchanger.
The embodiments of the present invention is elaborated above in conjunction with drawings and examples, but the utility model
It is not limited to the above embodiment, within the knowledge of a person skilled in the art, this can also not departed from
It changes or changes under the premise of utility model objective.
Claims (6)
1. a kind of for thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator, which is characterized in that including steaming
Section, condensation segment to be sent out, is connected between the evaporator section and condensation segment by adiabatic section, the section of jurisdiction of the condensation segment is vertically arranged,
Evaporator is provided between the evaporator section and condensation segment, the section of jurisdiction of the evaporator is parallel with the section of jurisdiction of the condensation segment to be set
It sets, the section of jurisdiction of the evaporator section is horizontally disposed or is obliquely installed, and is in the folder of 15-90 degree between the evaporator section and condensation segment
Angle.
2. the gravity-type heat pipe heat exchanger according to claim 1 for being used for thermal pump dehumidification drying machine and integrated evaporator,
It is characterized in that, the evaporator section is correspondingly arranged at the damp-heat air air inlet of thermal pump dehumidification drying machine.
3. the gravity-type heat pipe heat exchanger according to claim 2 for being used for thermal pump dehumidification drying machine and integrated evaporator,
It is characterized in that, the direction of the damp-heat air air inlet is straight up.
4. the gravity-type heat pipe heat exchanger according to claim 2 for being used for thermal pump dehumidification drying machine and integrated evaporator,
It is characterized in that, the direction of the damp-heat air air inlet and plane where the evaporator section are perpendicular.
5. the gravity-type heat pipe heat exchanger according to claim 1 for being used for thermal pump dehumidification drying machine and integrated evaporator,
It is characterized in that, the evaporator section and condensation segment are copper pipe fin type heat exchanger or micro-channel parallel flow heat exchanger.
6. the gravity-type heat pipe heat exchanger according to claim 1 for being used for thermal pump dehumidification drying machine and integrated evaporator,
It is characterized in that, the evaporator is copper pipe fin type heat exchanger or micro-channel parallel flow heat exchanger.
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CN201821599392.8U CN209310585U (en) | 2018-09-29 | 2018-09-29 | For thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator |
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CN201821599392.8U CN209310585U (en) | 2018-09-29 | 2018-09-29 | For thermal pump dehumidification drying machine and the gravity-type heat pipe heat exchanger of integrated evaporator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113418324A (en) * | 2021-05-20 | 2021-09-21 | 青岛海尔空调电子有限公司 | Air source heat pump drying system and control method and control device thereof |
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2018
- 2018-09-29 CN CN201821599392.8U patent/CN209310585U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113418324A (en) * | 2021-05-20 | 2021-09-21 | 青岛海尔空调电子有限公司 | Air source heat pump drying system and control method and control device thereof |
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